EP2168537A1

EP2168537A1 - Orthopaedic instrument having drain holes

Info

Publication number: EP2168537A1
Application number: EP09168316A
Authority: EP
Inventors: Kyle Thomas
Original assignee: DePuy Products Inc
Current assignee: DePuy Products Inc
Priority date: 2008-09-30
Filing date: 2009-08-20
Publication date: 2010-03-31
Anticipated expiration: 2029-08-20
Also published as: US8187283B2; CN101711701A; US9408701B2; CN101711701B; EP2168537B1; US9204969B2; US20120215319A1; JP5657227B2; US20100082111A1; JP2010082443A; ATE535214T1; AU2009212975A1; US20130204385A1

Abstract

A reusable orthopaedic instrument (10) includes a reusable orthopaedic trial having a first outer surface (14) and a second outer surface (16) that is opposite the first outer surface. The second outer surface includes a plurality of sidewalls (42) extending outwardly therefrom to form a cavity (40). A drain hole (70) is formed in the second outer surface at a location within the cavity. The drain hole extends through the reusable orthopaedic trial from the second outer surface to the first outer surface. Further, the second outer surface slopes downwardly from the plurality of sidewalls toward the drain hole.

Description

The present invention relates generally to reusable orthopaedic instruments, including reusable orthopaedic trials.
Various orthopaedic surgical procedures involve the use of a number of orthopaedic instruments, including orthopaedic trials, for example. For example, during a typical total knee arthroplasty (TKA) tibial trials, such as tibial trial trays and tibial trial inserts, are used to assist a surgeon in preparing the tibial surface for implantation of the tibial portion of the artificial knee. A surgeon often uses a tibial insert trial to determine the tibial implant size and to ensure a proper alignment and tibial component thickness prior to implanting the tibial components themselves, for example.
Certain types of orthopaedic instruments such as saw blades, for example, are made of metal, but others, such as trials for example are oftentimes formed from moulded polymers. Many such orthopaedic instruments are cleaned and sterilized after use in a particular orthopaedic surgical procedure and then reused in subsequent surgical procedures. In a typical cleaning or sterilization process, the tools may be autoclaved. In such a process, the reusable orthopaedic tools are placed in sterilization trays for cleaning and sterilization.
Many different orthopaedic instruments are used and reused during various orthopaedic surgical procedures. The term "reusable orthopaedic instrument" is used in this document to refer to a surgical tool for use by a surgeon in performing an orthopaedic surgical procedure which is sterilized and reused in subsequent orthopaedic surgical procedures. Such reusable orthopaedic instruments include numerous types of reusable orthopaedic trials. Hence, the term "reusable orthopaedic trial" is used to refer to a surgical trial for use by a surgeon in performing an orthopaedic surgical procedure which is sterilized and reused in subsequent surgical procedures. As such, it should be appreciated that, as used herein, the terms "reusable orthopaedic instruments" and "reusable orthopaedic trials" are used to distinguish instruments from orthopaedic implants that are surgically implanted in the body of the patient.
In one aspect, the present invention provides a reusable orthopaedic instrument which includes a reusable orthopaedic trial having a first outer surface and a second outer surface that is opposite the first outer surface. The second outer surface includes a drainage surface that has a plurality of sidewalls extending outwardly therefrom to form a cavity. A drain hole is formed in the drainage surface at a location within the cavity such that the drain hole extends through the orthopaedic trial from the second outer surface to the first outer surface. Further, the drainage surface slopes downwardly from the plurality of sidewalls toward the drain hole.
The reusable orthopaedic trial may be one of a femoral trial, a tibial trial, a tibial insert trial, a tibial augment trial, a femoral augment trial, a tibial stem trial, a femoral stem trial, a hip cup trial, a hip liner trial, a hip stem trial, a shoulder cup trial, a shoulder liner trial, a shoulder stem trial, and a trauma trial.
The reusable orthopaedic trial may be made from a polymer material. For example, the reusable orthopaedic trial may be made from an injection molded polymer material.
Preferably, the plurality of sidewalls are arranged around the entire periphery of the cavity.
Preferably, the second outer surface includes a second drainage surface including a second plurality of sidewalls extending outwardly therefrom to form a second cavity. A second drain hole may be formed in the second drainage surface at a location within the second cavity such that the second drain hole extends through the reusable orthopaedic trial from the second outer surface to the first outer surface. For example, the second drainage surface may slope downwardly from the second plurality of sidewalls forming the second cavity toward the second drain hole.
In another aspect, the invention provides a reusable orthopaedic instrument which includes a body having a first outer surface and a second outer surface that is opposite the first outer surface. The second outer surface includes a drainage surface including a plurality of sidewalls extending outwardly therefrom to form a cavity. A drain hole is formed in the drainage surface at a location within the cavity such that the drain hole extends through the body of the orthopaedic instrument from the second outer surface to the first outer surface. The drainage surface slopes downwardly from the plurality of sidewalls toward the drain hole.
The reusable orthopaedic instrument may be a reusable orthopaedic trial, when at least a portion of the first outer surface may define an outer, bearing surface of the reusable orthopaedic trial. As such, the drain hole may be formed through the outer, bearing surface.
Preferably, the reusable orthopaedic instrument is one of a knee instrument, a hip instrument, a shoulder instrument, and a trauma instrument.
Preferably, the body of the reusable orthopaedic instrument is made from an injection molded polymer material.
The reusable orthopaedic instrument may be configured to be used in an orthopaedic surgical procedure, sterilized, and reused in a subsequent orthopaedic surgical procedure.
Preferably, the plurality of sidewalls of the body of the reusable orthopaedic instrument are connected to each other.
Preferably, the drain hole is generally equidistant from each of the plurality of sidewalls.
The second outer surface may include a second drainage surface including a second plurality of sidewalls extending outwardly therefrom to form a second cavity. Further, a second drain hole may be formed in the second drainage surface at a location within the second cavity. It can be preferred that the second drain hole extends through the body of the orthopaedic instrument from the second outer surface to the first outer surface. The second drainage surface may slope downwardly from the second plurality of sidewalls toward the second drain hole.
The plurality of sidewalls may include a curved sidewall portion. Further, the plurality of sidewalls may include a plurality of interconnected curved sidewall portions positioned around the entire periphery of the drainage surface.
In a further aspect, the invention provides a reusable orthopaedic device for use in an orthopaedic surgical procedure which includes a reusable orthopaedic instrument having a first outer surface and a second outer surface that is opposite the first outer surface. The second outer surface includes a drainage surface that has a plurality of sidewalls extending outwardly therefrom to form a cavity. A drain hole is formed in the drainage surface at a location within the cavity such that the drain hole extends through the reusable orthopaedic instrument from the second outer surface to the first outer surface. Finally, the drainage surface slopes downwardly from the plurality of sidewalls toward the drain hole.
The reusable orthopaedic instrument may be any of a femoral trial, a tibial trial, a hip trial, a shoulder trial, a trauma trial, a knee instrument, a hip instrument, a shoulder instrument, and a trauma instrument.
Various reusable orthopaedic surgical instruments such as trials are described in this document. Each of these orthopaedic instruments can be formed from an injection moulded polymer material in such a way as to create one or more cavities therein. The orthopaedic instruments may be made from other suitable materials as well. Each of the orthopaedic instruments described herein can be used during an orthopaedic surgical procedure, sterilized, and then reused during a subsequent orthopaedic surgical procedure. As is discussed in greater detail below, each of the described orthopaedic instruments can include a drain hole for draining liquid therefrom.
Embodiments of the invention are described below by way of example with reference to the accompanying drawings, in which:

FIG. 1 is a top perspective view of an injection molded tibial insert trial having drainage holes formed therein;
FIG. 2 is a bottom perspective view of the tibial insert trial of FIG. 2;
FIG. 3 is a sectional view taken along line 3-3 of FIG. 2;
FIG. 4 is a bottom elevation view of an injection molded femoral trial having drainage holes formed therein;
FIG. 5 is a top perspective view of the femoral trial of FIG. 4;
FIG. 6 is a sectional view of the femoral trial of FIGS. 4 and 5 taken along line 6-6 of FIG. 5;
FIG. 7 is a sectional view of the femoral trial of FIGS. 4-6 taken along line 7-7 of FIG. 5;
FIG. 8 is a bottom perspective view of an injection molded tibial augment trial having drainage holes formed therein;
FIG. 9 is a sectional view of the tibial augment trial of FIG. 8 taken along line 9-9 of FIG. 8;
FIG. 10 is a top perspective view of an injection molded knee instrument having drainage holes formed therein;
FIG. 11 is a fragmentary bottom view of the knee instrument of FIG. 10;
FIG. 12 is a sectional view of the knee instrument of FIGS. 10 and 11 taken along line 12-12 of FIG. 11;
FIG. 13 is a perspective view of an injection molded impactor tip having drainage holes formed therein; and
FIG. 14 is a top view of the impactor tip of FIG. 13.

Referring to the drawings, FIGS. 1 to 3 show a reusable tibial insert trial 10 which includes a platform 12 having an upper bearing surface 14, and a bottom surface 16 for placement on and engagement with a top surface of an implanted tibial trial tray (not shown), for example. In certain circumstances, the trial 10 may also be placed directly on a surface of the patient's tibia, for example. The trial 10 may also include other devices or features to secure the trial 10 to a tibial tray trial in a non-rotating configuration.
The upper bearing surface 14 of the trial 10 includes a medial bearing surface 18 and a lateral bearing surface 20. The medial and lateral bearing surfaces 18, 20 are configured to receive or otherwise contact corresponding medial and lateral condyles of a femoral component, such as the femoral trial 210 shown in FIGS. 4 to 7, for example. As such, the bearing surfaces 18, 20 may have concave contours in some embodiments. A spine 22 of the trial 10 extends upwardly from the platform 12 and is positioned between the bearing surfaces 18, 20.
As shown in FIG. 2, the trial 10 includes an outer wall 32 defining the upper bearing surface 14 and a bone-facing interior surface 34 which is opposite the bearing surface 14. In the illustrative example of FIGS. 1 to 3, the bearing surface 14 and the interior surface 34 define the outer surfaces of the trial 10. As is discussed in greater detail below, the trial 10 includes a plurality of cavities 40 formed therein. Trials 10 are frequently moulded to include such cavities in order to reduce an overall thickness of the polymer trial 10 as well as to reduce the amount of polymer used during the injection molding process. In the illustrated embodiment, the trial 10 includes six cavities 40, although the number of cavities in the trial, as well as their sizes and shapes, can vary.
As shown in the drawings, the interior surface 34 of the insert trial 10 includes a number of drainage surfaces 80, 82, 84, 86, 88, 90 having a plurality of interconnected sidewalls 42 extending outwardly therefrom. These sidewalls 42 cooperate with each other and with the drainage surfaces 80, 82, 84, 86, 88, 90 of the interior surface 34 to define the plurality of cavities 40 of the insert trial 10. In particular, each cavity 40 is defined by at least one of the drainage surfaces 80, 82, 84, 86, 88, 90 and a plurality of sidewall surfaces 44 of one or more adjacent sidewalls 42. For example, the cavities 45 and 47 are each defined by the respective drainage surface 82, 88 of the interior surface 34 as well as first, second, third, and fourth sidewall surfaces 46, 48, 50, 52. While the particular cavity 45 is defined by the four sidewall surfaces 46, 48, 50, 52, a trial 10 might have a cavity formed in it that is defined by any number of sidewall surfaces extending outwardly therefrom. For example, a cavity may be defined by a single curved sidewall forming an oval or a circle. Further, a cavity may be defined by two or more curved and/or straight side walls. For example, a cavity 56 can be defined by a first, generally straight sidewall surface 58, a second, generally curved sidewall surface 60, and a third, generally curved sidewall surface 62. Accordingly, the tibial insert trial 10 may have a cavity formed in it which is defined by at least a portion of the bone-facing interior surface 34 and any number of curved and/or straight sidewall surfaces. Furthermore, the sidewalls 42 of the trial 10 can be interconnected with each other and positioned around the entire periphery of each drainage surface of the interior surface 34. It is also envisaged that cavities might be defined by sidewalls which are positioned only partially around a periphery of the drainage surface.
The insert trial 10 further includes a plurality of drain holes 70, as shown in FIGS. 1 and 2. Each drain hole 70 may be formed in a respective drainage surface of the interior surface 34 (e.g., the drainage surfaces 80, 82, 84, 86, 88, 90) and extend through the outer wall 32 of the trial 10 from the interior surface 34 to the bearing surface 14 of the trial 10. In particular, each drain hole 70 is formed in one of the drainage surfaces 80, 82, 84, 86, 88, 90 at a location within one of the cavities 40. Each drain hole 70 drains any liquid collected within the cavities 40 during a cleaning and sterilization process of the insert trial 10. In other words, fluid is able to be drained from each cavity 40 through the respective drain hole 70. As shown, the drainage surface of each cavity 40 includes a single drain hole 70, but any number of drain holes 70 may be provided.
The drainage surfaces 82, 88 are shown in FIG. 3. The drainage surface 82, 88 of each respective cavity 45, 47 is generally funneled in shape. In particular, the portion 72 of the drainage surface 82 between the outer sidewall surface 52 and the drain hole 70 of each cavity 45, 47 is sloped downwardly towards the drain hole 70. Similarly, the portion 74 of the drainage surface 88 between the sidewall surface 48 and the drain hole 70 is also sloped downwardly towards the drain hole 70, so that each of the drainage surfaces is sloped downwardly towards the drain hole 70. This negative slope allows liquid to drain toward the drain hole 70 in order to maintain the sterility of the trial 10 during the cleaning and sterilization process. In other words, the drainage surfaces 80, 82, 84, 86, 88, 90 of each cavity 40 of the trial 10 slope downwardly from the plurality of sidewalls 42 defining the cavity 40 toward the drain hole 70.
While the funnel shape of the drainage surfaces 82, 88 of each cavity 45 and 47 is shown in FIG. 3 and described above, it should be understood that the drainage surface of each of the other cavities 40 of the trial 10 is also generally funnelled in shape. In other words, each cavity 40 of the trial 10 includes one of the drainage surfaces 82, 84, 86, 88, 90 having downwardly sloped portions between an adjacent sidewall surface of one of the sidewalls 42 defining the cavity 40 and the drain hole.
Each drain hole 70 of the insert trial 10 can be spaced apart from each of the sidewall surfaces of the sidewalls 42 of the cavity 40. However, as is discussed below in relation to other reusable orthopaedic instruments, it is possible to position one or more of the drain holes 70 generally adjacent to one or more of the sidewall surfaces of the cavity's sidewalls 42. It is also possible to locate one or more of the drain holes 70 generally centrally within a particular cavity 40 such that the drain hole 70 is generally equidistant from each of the sidewalls 42 defining the cavity 40.
As shown in FIGS. 1 to 3, the tibial insert trial 10 has formed in it a plurality of cavities 40 and drainage holes 70 for draining any liquid which may collect within each cavity 40 during a cleaning and sterilization process, for example. While such structures and features are shown and described with reference to the tibial insert trial 10, the same or similar drainage means may be provided in other orthopaedic instruments which are typically used, sterilized, and reused in subsequent orthopaedic procedures. For example, orthopaedic instruments including femoral trials such as femoral augment trials and femoral stem trials, tibial trials such as tibial tray trials, tibial stem trials, and tibial augment trials, hip trials such as hip cup trials, hip liner trials, and him stem trials, shoulder trials such as shoulder cup trials, shoulder liner trials, and shoulder stem trials, and trauma trials may each include the same or similar drainage means as that discussed above in regards to the tibial insert trial 10. Furthermore, orthopaedic instruments including knee instruments, hip instruments, shoulder instruments, and trauma instruments may also include the same or similar drainage means as that discussed above in relation to the tibial insert trial 10. Of course, other such orthopaedic instruments may include such drainage means as well. Accordingly, orthopaedic instruments which include drainage features as that discussed above with reference to the tibial insert trial 10 of FIGS. 1 to 3 are discussed below with reference to FIGS 4 to 14.
FIGS. 4 to 7 show a reusable femoral trial 110 which includes a pair of spaced-apart medial and lateral condyles 112, 114 defining an outer wall having an outer surface including respective medial and lateral condyle surfaces 116, 118. In use, the condyles 112, 114 are configured to articulate on corresponding bearing surfaces of a tibial insert trial, such as the trial 10 shown in FIGS. 1 to 3. The femoral trial 110 may be injection moulded from a polymer material and is formed to include a plurality of cavities 140. The femoral trial 110 includes a bone-facing interior surface 134 opposite the outer surface. In the illustrative example of FIGS. 4 to 7, the outer condyle surfaces 11, 118 and the bone-facing interior surface 134 define the outer surfaces of the trial 110. The interior surface 134 includes a plurality of drainage surfaces, such as drainage surfaces 180, 182, 184, 186, 188, as shown in FIGS. 6 and 7, for example, having a plurality of sidewalls 142 extending outwardly therefrom. The cavities 140 are defined by the various drainage surfaces and the sidewall surfaces of the sidewalls 142.
The femoral trial 110 further includes a plurality of drain holes 170 extending through the trial 110 from the outer condyle surfaces 116, 118 to the interior surface 134 of each respective condyle 112, 114. In particular, a drain hole 170 is formed in each drainage surface 180, 182, 184, 186, 188 that is located within each of the plurality of the cavities 140. A drain hole 170 is formed in other drainage surfaces of the trial 110 as well. Further, as shown in FIGS. 6 and 7, the respective drainage surface 180, 182, 184, 186, 188 defining each cavity 140 is sloped downwardly from the sidewall surfaces of the particular sidewalls 142 defining the cavity 140 to the drain hole 170 in order to encourage liquid to drain. Accordingly, the drainage surfaces 180, 182, 184, 186, 188 shown in FIGS. 6 and 7 as well as other drainage surfaces of the trial 110 defining each cavity 140 cooperate with the respective drain holes 170 within each cavity 140 to provide drainage means of each cavity 140 for draining liquid therefrom.
FIGS. 8 and 9 show a reusable tibial augment trial 210 which includes an outer wall 212 having an outer surface 214 and an interior surface 234 which is opposite the outer surface 214. In the example of FIGS. 8 and 9, the outer surface 214 and the interior surface 234 define the outer surfaces of the trial 10. The reusable trial 210 further includes an outer sidewall 216 having an outer surface 218 and an inner surface 220. Typically, an augment trial, such as the tibial augment trial 210, is used in a revision surgery and is attached to the tibial component to account for any bone loss of the patient often seen in revision surgeries. Preferably, the outer sidewall 216 is coupled to and extends away from the interior 234 of the outer wall 212. Further, the outer sidewall 216 is positioned about an outer perimeter of the outer wall 212. The interior surface 234 further includes a number of drainage surfaces and an inner sidewall 222 extending outwardly therefrom. In particular, the interior surface 234 of the trial 210 includes two drainage surfaces 280, 282. The sidewall 222 is coupled to and extends between opposed portions of the inner surface 220 of the outer wall 212 to define first and second cavities 240, 242 therein. The inner sidewall 222 includes first and second surfaces 226, 228 which cooperate with the inner sidewall surface 220 of the outer sidewall 216 to define respective first and second cavities 240, 242. The trial 210 further includes a bottom surface 224 of the outer sidewall 216 and the inner sidewall 222.
The reusable trial 210 further includes first and second spaced-apart drain holes 270, 272 through the outer wall 212. In particular, each drain hole 270, 272 extends between the outer surface 214 of the outer wall 212 and the respective drainage surface 280, 282 of the interior surface 234 of the outer wall 212. Further, the first drain hole 270 is formed in the first drainage surface 180 at a location within the first cavity 240 while the second drain hole 272 is formed in the second drainage surface 182 at a location within the second cavity 242. As shown in FIG. 9, the first drainage surface 280 is sloped downwardly toward the drain hole 270. In particular, portions of the first drainage surface 280 between the drain hole 270 and the inner surface 220 of the outer sidewalls 212 and the surface 226 of the inner sidewall wall 222 are sloped downwardly toward the drain hole 270 in order to encourage liquid to drain toward the drain hole 270. Similarly, portions of the second drainage surface 282 between the drain hole 272 and the inner surface 220 of the outer sidewall 212 and the surface 228 of the inner sidewall 222 of the second cavity 242 are similarly sloped downwardly away from the sidewalls 212, 222 and toward the drain hole 272. Accordingly, the first and second drainage surfaces 180, 182 and the respective drain holes 270, 272 cooperate to provide drainage means of each cavity 240, 242 for draining liquid.
FIGS. 10 to 12 show a reusable spacer block 310. The spacer block 310 includes an outer wall or body 312 having an outer surface 314 and a bone-facing interior surface 334 (shown in FIG. 11). The spacer block 310 further includes an outer sidewall 316 having an outer surface 318 and an inner surface 320 as well. In the particular block shown in FIGS. 11 to 12, the outer surface 314, the bone-facing interior surface 334, and the inner surface 320 define the outer surfaces of the trial 310. The interior surface 334 of the spacer block 310 includes a plurality of drainage surfaces having a plurality of sidewalls 322 extending outwardly therefrom. Drainage surfaces 380, 382, 384, 386, 388, 390, 392, 394, 396, 398 are shown in FIG. 11. The sidewalls 322 cooperate with each other and the outer sidewall 312 to define a plurality of cavities 340 of the spacer block 310. The spacer block 310 further includes a plurality of drain holes 370 through the outer sidewall 312. Each drain hole 370 is formed through the outer wall 312 at a location within one of the plurality of cavities 340.
Each drainage surface, including drainage surfaces 380-398, is sloped downwardly toward the drain hole 370 and away from the sidewalls 312, 322 defining the respective cavity 340. In particular, portions of each drainage surface of the interior surface 334 between the drain hole 370 and the sidewall surfaces 324 of the sidewalls 322 and/or the inner sidewall surface 320 of the outer sidewall 312 are sloped downwardly toward the drain hole 370 in order to encourage liquid to drain toward the drain hole 370. Accordingly, the drainage surface located within each cavity 340 and the respective drain holes 370 formed in the interior surface 334 at a location within each cavity 340 cooperate to provide drainage means for draining liquid from each cavity 340.
FIGS. 13 and 14 show a reusable impactor 410. The impactor 410 includes right and left portions 412, 414 coupled to each other by a connector 416. Each of the right and left portions 412, 414 includes an outer wall 418 having an outer surface 420 and an interior surface 422. In the example of FIGS. 13 and 14, the outer surface 420 and the interior surface 422 define the outer surfaces of the trial 410. The interior surface 422 includes a plurality of drainage surfaces having a plurality of sidewalls 424 extending outwardly therefrom. FIG. 14 shows drainage surfaces 480, 482, 484, 486 of the left portion 414. Each sidewall 424 includes surfaces 426 which cooperate with each other and with the outer wall 418 to define a plurality of cavities 440 of the impactor 410. The reusable impactor 410 further includes a plurality of drain holes 470 through the outer wall 412. Each drain hole 470 is formed in one of the drainage surfaces, such as surfaces 480, 482, 484, 486 within one of the plurality of cavities 440. As shown in FIG. 14, drainage surfaces 480 and 486 each include a single drain hole 470 formed therein, whereas the drainage surfaces 482, 484 each include two drain holes 470 formed therein.
The drainage surfaces 480, 482, 484, 486 of each cavity 440 are each sloped downwardly away from the sidewalls 424 toward the one or more drain holes 470 located within each respective cavity 440. In particular, each drainage surface, such as surfaces 480, 482, 484, 486, located within the cavities 440 is sloped downwardly away from the inner surfaces 422 of the outer wall 418 and the sidewall surfaces 426 of the sidewalls 424 toward each drain hole 470 in order to encourage liquid to drain toward the drain holes 470. Accordingly, the drainage surfaces 480, 482, 484, 486 of each respective cavity 440 and the drain hole(s) 470 formed through the respective drainage surfaces 480, 482, 484, 486 cooperate to provide drainage means for draining liquid from each cavity 440.
Orthopaedic instruments including femoral trials such as femoral augment trials and femoral stem trials, tibial trials such as tibial tray trials, tibial stem trials, and tibial augment trials, hip trials such as hip cup trials, hip liner trials, and him stem trials, shoulder trials such as shoulder cup trials, shoulder liner trials, and shoulder stem trials, and trauma trials may each include the same or similar drainage arrangements as those discussed above with reference to FIGS. 1 to 14. Other reusable orthopaedic instruments including knee instruments, hip instruments, shoulder instruments, and trial instruments may also include the same or similar drainage arrangements as those discussed above with reference to FIGS. 1 to 14. Of course, other reusable orthopaedic instruments may include such drainage arrangements as well.
Each of the orthopaedic instruments 10, 110, 210, 310, 410 discussed above may be made from an injection moulded polymer material. Accordingly, the injection mould used to form the polymer includes funnel-shaped structure(s) to form the various cavities and corresponding downwardly sloped drainage surfaces located within the cavities of each of the instruments 10, 110, 210, 310, 410. The orthopaedic instrument may however be made from other suitable materials by other suitable processes.

Claims

A reusable orthopaedic instrument comprising a body having a first outer surface and a second outer surface that is opposite the first outer surface, in which:
(i) the second outer surface includes a drainage surface including a plurality of sidewalls extending outwardly therefrom to form a cavity,

(ii) a drain hole is formed in the drainage surface at a location within the cavity, the drain hole extending through the body of the orthopaedic instrument from the second outer surface to the first outer surface, and

(iii) the drainage surface slopes downwardly from the plurality of sidewalls toward the drain hole.
The reusable orthopaedic instrument of claim 1, in which the orthopaedic instrument is a reusable orthopaedic trial.
The reusable orthopaedic instrument of claim 2, in which at least a portion of the first outer surface defines an outer, bearing surface of the reusable orthopaedic trial, and the drain hole is formed through the outer, bearing surface.
The reusable orthopaedic instrument of claim 1, in which the orthopaedic instrument is one of a knee instrument, a hip instrument, a shoulder instrument, and a trauma instrument.
The reusable orthopaedic instrument of claim 1, in which the body is made from a polymer material, preferably by injection moulding.
The reusable orthopaedic instrument of claim 1, in which the plurality of sidewalls are coupled to each other.
The reusable orthopaedic instrument of claim 1, in which the drain hole is generally equidistant from each of the plurality of sidewalls.
The reusable orthopaedic instrument of claim 1, in which:
the second outer surface further includes a second drainage surface including a second plurality of sidewalls extending outwardly therefrom to form a second cavity,

a second drain hole is formed in the second drainage surface at a location within the second cavity,

the second drain hole extends through the body of the orthopaedic instrument from the second outer surface to the first outer surface.
The reusable orthopaedic instrument of claim 8, in which the second drainage surface slopes downwardly from the second plurality of sidewalls toward the second drain hole.
The reusable orthopaedic instrument of claim 1, in which the plurality of sidewalls includes a curved sidewall portion.
The reusable orthopaedic instrument of claim 10, in which the plurality of sidewalls includes a plurality of interconnected curved sidewall portions positioned around the entire periphery of the drainage surface.
The reusable orthopaedic instrument of claim 1, in which the second outer surface includes a second drainage surface including a second plurality of sidewalls extending outwardly therefrom to form a second cavity, and further in which a second drain hole is formed in the second drainage surface at a location within the second cavity, the second drain hole extending through the orthopaedic trial from the second outer surface to the first outer surface.